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311Vol.31,No.1 20031JOURNALOFTHECHINESECERAMICSOCIETYJanuary,2003Ti-尹 琳1,2,陆现彩1,2,艾 飞3,4(1.,;2.;3.;4., 210093) :,。,。,,。pH=11,400mg·L-1,m(TiO2)∶m()1∶20Ti-(COD)21.5%73.8%。(pH=11)(400mg·L-1)。3,TiO2COD。:;-;;:X703 :A :0454-5648(2003)01-0066-04EFFECTSOFTi-ATTAPULGITECATALYSTSFORCATALYTICOZONATIONDEGRADINGPROCESSOFDYEWASTEWATERYINLin1,2,LUXiancai1,2,AIFei3,4(1.StateKeyLaboratoryforMineralDepositsResearch,NanjingUniversity;2.ResearchCenterofAttapulgiteClaysEngineeringandTechnology,Jiangsu;3.DepartmentofChemistry,NanjingUniversity;4.ResearchCenterofSurface&InterfaceChemistryandEngineeringTechnology,Nanjing 210093,China)Abstract:Fornon_biodegradableorganicdyewastewater,ozonationprocessisaneffectivemethodinwatertreatment.However,therearesomeobstaclesoflowefficiencyonoxidizationandhighcostofrunningforozonetechniqueinutilities.Akindofsolidcata-lyst,whichiscomposedofattapulgiteascarrierandTiO2asactivemetaloxide,wasusedtooxygenate(compositecatalysisoxidiza-tion)syntheticdyewastewaterandthegoodeffectispresented.UndertheidealizedconditionofpH=11,theconcentrationofthedyewateris400mg·L-1,ratioofTiO2toattapulgiteis1∶20(inmass),themineralcatalystefficiencyofozonation(expressedas,chemicaloxygendemand,COD,decreasedrate)increasesfrom21.5%,withO3only,to73.8%byusingthecompositecatalyst.Inconditionofalkali(pH=11)andrelativediluentdyewastewater(400mg·L-1),abetterresultcanbeobtained.ThesatisfactorypropertiesforthecatalystinTiO2losingandCODdecreaseratecanbemaintainedafter3timesrepeatedoperation.KeyWords:dyewastewater;titania-mineralcatalyst;attapulgite;compositecatalysisoxidization ,[1]。,,,:2002-03-11。:2002-06-07。: (1957~),,,。。,Al2O3、。TiO2。[2,3]Receiveddate:2002-03-11.Approveddate:2002-06-07.Biography:YINLin(1957—),male,doctor,associateprofessor.E-mail:yinlin@nju.edu.cn,。1 实 验1.1 ,:-X3B[4](1)—NN—,。,。,,(chemicaloxygendemand,COD)。,,,。Zn,Ti,Mn,Ni[5~7]。,[8]。、TiO2,。1 -X3BFig.1 Molecularstructuralofmonoazo_dyes(active-bril-liantred)X3B。Bradley[9],2∶1,。350m2/g,5%pH9[2,3]。TiO2。TiO2-。1.2 COD[10]。。MONITOR8810。1.3 TiO2(C.P.)(74μm),PAL,3~5mm,,[11,12]。-X3B,200,400,500,1000mg·L-1。2,1.1L/min,17.2mg/h。900mm,3。30℃。83.3%。2 Fig.2 Diagramofmulti_catalyticaeratingapparatusofozonationexperiment2 结果与讨论2.1 TiO2500mg·L-150mL,TiO2,60minCOD。TiO2(1),,50mLTiO20.1g,0.2%。1 TiO2Table1 InfluencesofdosageofTiO2onthedegradationDosageofTiO2/g00.010.050.10.30.5COD/(mg·L-1)365221199187188189DecreasedrateofCOD/%0 39.5 45.5 48.8 48.5 48.2Colorratio70005003003050250·67· 311 :Ti- 2.2 ,,。200,400mg·L-150mL,TiO20.1g,20,40,60min,2。2 Table2 InfluencesoftimeofaeratingonthedegradationTimeofaerating/minOperation200mg·L-1syntheticdyewaterCOD/(mg·L-1)CODdecreasedrate/%400mg·L-1syntheticdyewaterCOD/(mg·L-1)CODdecreasedrate/%0O3only1380 2560 O3+TiO21380 2560 20O3only11516.722611.7O3+TiO291.633.619125.440O3only10424.620121.5O3+TiO27545.715838.360O3only9828.917830.5O3+TiO269.749.514045.3,,,,,,40min,。2.3 pHpH。400mg·L-150mL,TiO20.1g,40min,pH,(3)。3 pHTable3 InfluencesofpHvalueontheeffectsofcatalysispHvalue2.05.37.011.0COD/(mg·L-1)150158152133CODdecreasedrate/%41.438.340.748.1IncreasedthanonlyO3/%92.678.189.3123.7Note:pHvalueof400mg·L-1syntheticdyewateris5.3.2.4 TiO2,TiO2,TiO2,TiO21∶201∶10。50mL5g,TiO20.238g0.455g。,COD3.4,,(4)。4 Table4 CatalyticozonationeffectsofmineralcatalystsIndexCOD/(mg·L-1)CODdecreasedrate/%ColorratioSynthetic dyewater*256—6000 O320121.5500O3+TiO215838.3—1∶10mineral catalyst+O3**14244.51001∶20mineral catalyst+O3** 135.847.01001∶20mineral catalyst+O3***6773.8100*400mg·L-1;**pH=5.3;***pH=11.2.5 ,,3pH11、40min,。,CODO33.4(5)。,,。5 Table5 DegradingefficienciesofcatalystsviaconcentrationsConcentrationsofsyntheticdyewater/(mg·L-1)4005001000CODofsyntheticdyewater/(mg·L-1)256365530O3onlyCOD/(mg·L-1)201287477CODdecreasedrate/% 21.5 21.3 10.3TiO20.1gascatalyst+O3COD/(mg·L-1)162238455CODdecreasedrate/% 36.7 34.8 14.11∶20mineralcatalyst5g+O3COD/(mg·L-1)67180336CODdecreasedrate/% 73.8 50.7 36.6·68· 2003 ,40min1000mg·L-1,。2.6 Ti,1∶205g,50mL40min。,(ICP-AES)Ti4+0.0208mg·L-1,0.0007%,Ti。1∶205g400mg·L-150mL,pH11,40min。、、,3。,COD50%(6),。6 Table6 RepeatabilityexperimentsRepeatoperations123COD/(mg·L-1)67112.698CODdecreasedrate/%73.85661.7Massloss/g0.50.2Rare2.7 ,TiO2。:5g50mL400mg·L-1,40min,pH711.0。1∶20。,(5g,50mL)COD29.7%(51.2%-21.5%)35.1%(56.6%-21.5%)。17.2%(73.8%-56.6%)22.6%(73.8%-51.2%)(7)。。7 COD Table7 ComparisonofadsorptionofattapulgitewithcatalyticozonationIndexAdsorptionofattapulgite(pH=2.0)Adsorptionofattapulgite(pH=7)Adsorptionofattapulgite(pH=11)O3only(pH=5.3)1∶20TiO2mineralcatalystandO3(pH=11)COD/(mg·L-1)15012511120167Decreasedrate/% 41.4 51.2 56.6 21.5 73.83 结 论(1)TiO2,。(2)TiO20.2%,1∶10(kg)(L)1∶500,。(3)O3,,。。:[1] (LIJiazhen).、(WastewaterTreatmentofDyesIndustry)[M].:(Beijing:ChemicalIndustryPress),1997.181—221.[2] (ZHANGPeiyuan).()(In-dustryMineralsandRocks,China,Vol2)[M].:(Beijing:GeologicalPublishingHouse),1987.241—270.[3] ,(ZHAOXingyuan,etal).(ClaysandClaysAnalysis)[M].:(Beijing:ChinaOceanPress),1990.31.[4] ,,(HOUYufen,etal